DAVID JAY WARNER – CV –02

 

Dave Warner MD PhD
Medical Neuroscientist
Dir. Medical Intelligence
MindTel
davew@mindtel.com

http://www.mindtel.com/
http://www.medibolt.com/

 

Education

Loma Linda University Ph.D.               Physio-informatics                    2000

Loma Linda University MD                  Doctor of Medicine                  1995

San Diego State University        BA                   Physical Science                       1986.

(Emphasis in Physics, Mathematics and Philosophy)

 

Current Positions

 

Research Assistant Professor, Dept ECS  Syracuse University NY

 

Active Research Areas

Interventional Informatics; Medical Communications; Distributed Medical intelligence; Bio-sensors; Quantitative Human performance; Expressional interface systems; Physio-informatics; Intelligent Interface-metrics; User Tracking Interface systems; Distributed tele-robotic controllers; Intermental Networking; Bio-cybernetics systems; Cognitive Neuroscience; Perceptual Psycho-physics; Perceptual state space modulation; Physiology; Physics; Mathematics; Philosophy; General Systems 

 

Other professional responsibilities

 

Director, Institute for Interventional Informatics (I3), San Diego, CA

I3 is an organization dedicated to the intelligent implementation of interactive information technologies in Health Care and Education  

 

CIO, MindTel LLC, Director of Medical Intelligence, Syracuse, NY

MindTel is devoted to solving leading-edge problems in communication, healthcare, education, and recreation

 

Principal Instigator (sic), Center For Really Neat Research, Rancho Santa Fe, CA

 

Current Funding 

Grants:

Physio Info Tronics –SPAWAR  - 4 year 3.8M , renewed for FY-03

 

Current Projects.

National Reconnaissance Office  -SBU

 (sensitive but unclassified) Knowledge fusion and interactive representations.

 

 

 

 

Biography

Warner, a medical neuroscientist with an MD/PhD  from Loma Linda University, and director of the Institute for Interventional Informatics, has gained international recognition for pioneering new methods of physiologically based human-computer interaction. Warner's research efforts have focused on advanced instrumentation and new methods of analysis, which can be applied to evaluating various aspects of human function as it relates to human-computer interaction.  His efforts are to identify methods and techniques that optimize information flow between humans and computers. Warner's work has indicated an optimal mapping of interactive interface technologies to the human nervous system's capacity to transduce, assimilate, and respond intelligently to information in an integrative-multisensory interaction and will fundamentally change the way that humans interact with information systems. Application areas for this work include quantitative assessment of human performance, augmentative communication systems, environmental controls for the disabled, medical communications and integrated interactive educational systems. Warner is particularly active in technology transfer of aerospace and other defense derived technologies to the fields of health care and education. Specific areas of interest are: advanced instrumentation for the acquisition and analysis of medically relevant biological signals; intelligent informatic systems, which augment both the general flow of medical information and provide decision support for the health care professional; public accesses health information databases designed to empower the average citizen to become more involved in their own health care; and advanced training technologies, which will adaptively optimize interactive educational systems to the capacity of the user.

 

Selected Publications

Warner D, Rusovick R, Balch D (1998) The Globalization of Interventional Informatics Through Internet Mediated Distributed Medical Intelligence, New Medicine

Warner D, Tichenor J.M, Balch D.C. (1996) Telemedicine and Distributed Medical Intelligence, Telemedicine Journal 2: 295-301.

Warner, D., Anderson, T., and Joh Johannsen. (1994). Bio-Cybernetics: A Biologically Responsive Interactive Interface, in Medicine Meets Virtual Reality II: Interactive Technology & Healthcare: Visionary Applications for Simulation Visualization Robotics. (pp. 237-241). San Diego, CA, USA: Aligned Management Associates.

Warner, D., Sale, J., Price, S. and Will, D. (1992). Remapping the Human-Computer Interface for Optimized Perceptualization of Medical Information, in Proceedings of Medicine Meets Virtual Reality. San Diego, CA: Aligned Management Associates.

Warner, D., Sale, J. and Price, S. (1991). The Neurorehabilitation Workstation: A Clinical Application for Machine-Resident Intelligence, in Proceedings of the 13th Annual International Conference of the IEEE Engineering in Medicine and Biology Society. ( pp. 1266-1267). Los Alamos, CA: IEEE Computer

Society Press.

Sale EJ, Warner DJ, Price S, Will AD.  Compressed complexity parameter.  Proceedings of the 2nd International Brain Topography Conference., Toronto, Ontario. 1991

Warner DJ, Price SH, Sale EJ, Will AD.  Chaotropic dynamical analysis of the EEG.  Brain Topography. 1990.

Warner DJ, Price SH, Sale EJ, Will AD.  Chaotropic Dynamical Analysis of the EEG.  Electroencephalography and Clinical Neurophysiology. 1990.

Warner D, Will AD.  Dynamical analysis of EEG: evidence for a low-dimensional attractor in absence epilepsy.  Neurology. 1990 April;40(1):351.

Will AD, Sale EJ, Price S, Warner DJ, Peterson GW.  Quantitative measurement of the "milkmaid" sign in Huntington's disease.  Annals of Neurology. 1991;30:320

Warner DJ, Will AD, Peterson GW, Price SH, Sale EJ.  The VPL data glove as an instrument for quantitative motion analysis.  Brain Topography. 1990.

Warner DJ, Will AD, Peterson GW, Price SH, Sale EJ.  The VPL data glove as an instrument for quantitative motion analysis.  Brain Topography. 1990.

Will AD, Warner DJ, Peterson GW, Price SH, Sale EJ. Quantitative motion analysis of the hand using the data glove.  Muscle and Nerve. 1990.

Will AD, Warner DJ, Peterson GW, Sale EJ, Price SH.  The data glove for precise quantitative measurement of upper motor neuron (UMN) function in amyotrophic lateral sclerosis (ALS).  Annals of Neurology. 1990;28:210.

Will AD, Warner DJ, Peterson GW, Price SH, Sale EJ.  Quantitative analysis of tremor and chorea using the VPL data glove.  Annals of Neurology. 1990;28:299.

Warner DJ, Will AD, Peterson GW, Price SH, Sale EJ.  The VPL data glove as a tool for hand rehabilitation and communication.  Annals of Neurology. 1990;28:272.